Fast-charging battery pack including a charging switch

The invention claimed is: 1. A battery pack, comprising: a housing; a plurality of battery cells supported by the housing, the plurality of battery cells and the battery pack having a nominal capacity of up to about 15 Amp-hours (Ah); a terminal block configured to be coupled to a power tool to provide operating power from the plurality of battery cells to the power tool, the terminal block having a positive power terminal, a charging terminal, and a ground terminal; and a charging circuit provided between the charging terminal and the plurality of battery cells, the charging circuit configured to receive and transfer charging current above 12 Amperes to the plurality of battery cells during charging, wherein the charging circuit includes a charging switch operable to provide the charging current to the plurality of battery cells. 2. The battery pack of claim 1 , further comprising a battery controller coupled to the charging circuit. 3. The battery pack of claim 2 , further comprising a gate driver coupled between the battery controller and the charging switch, wherein the battery controller controls the charging switch via the gate driver. 4. The battery pack of claim 3 , wherein the gate driver is coupled on a high side of the charging switch such that the gate driver receives operating power from the charging terminal. 5. The battery pack of claim 3 , further comprising: a first switch coupled between the battery cells and the gate driver; and a timer circuit coupled to the gate driver and having a time constant. 6. The battery pack of claim 5 , wherein the battery controller is further configured to: detect a connection to a charger; control the first switch to close; set a delay timer to the time constant of the timer circuit; and control the charging switch to close when the delay timer expires. 7. The battery pack of claim 6 , wherein the battery controller is further configured to detect a condition for disabling charging of the plurality of battery cells; control the charging switch to open; set a second delay timer to the time constant of the timer circuit; and control the first switch to open when the second delay timer expires. 8. The battery pack of claim 7 , further comprising a second switch for controlling the first switch, wherein the battery controller is coupled to the second switch to control the second switch, wherein the battery controller controls the first switch by controlling the second switch. 9. The battery pack of claim 1 , further comprising a printed circuit board (PCB) coupled to the terminal block, wherein the charging switch is provided adjacent the terminal block on the PCB. 10. The battery pack of claim 1 , wherein the charging switch is a N-Channel power MOSFET. 11. A battery pack charging system comprising: a charger configured to provide a charging current between about 6 Amperes and about 20 Amperes; a battery pack detachably connectable to the charger and configured to be charged by the charger, the battery pack having a nominal capacity of up to about 6 Amp-hours (Ah) and including: a plurality of battery cells; a terminal block configured to be coupled to a power tool to provide operating power from the plurality of battery cells to the power tool, the terminal block having a positive power terminal, a charging terminal, and a ground terminal; and a charging circuit provided between the charging terminal and the plurality of battery cells, the charging circuit configured to receive and transfer charging current above 12 Amperes to the plurality of battery cells during charging, wherein the charging circuit includes a charging switch operable to provide the charging current to the plurality of battery cells. 12. The battery pack charging system of claim 11 , wherein the battery pack receives a charging current of about 12 Amperes for charging the plurality of battery cells, further comprising: a second battery pack detachably connectable to the charger and configured to be charged by the charger, the second battery pack having a nominal capacity of between about 6 Ah and about 27 Ah including: a second plurality of battery cells; a second terminal block configured to be coupled to the power tool to provide operating power from the second plurality of battery cells to the power tool, the second terminal block having a second positive power terminal, a second charging terminal, and a second ground terminal; and a second charging circuit provided between the second charging terminal and the second plurality of battery cells, the second charging circuit configured to receive and transfer charging current above 12 Amperes to the second plurality of battery cells during charging, wherein the second charging circuit includes: a second charging switch operable to provide the charging current to the second plurality of battery cells, wherein the second battery pack receives a charging current of about 18 Amperes for charging the second plurality of battery cells. 13. The battery pack charging system of claim 11 , further comprising: a battery controller coupled to the charging circuit; a gate driver coupled between the battery controller and the charging switch, wherein the battery controller controls the charging switch via the gate driver; a first switch coupled between the battery cells and the gate driver; and a timer circuit coupled to the gate driver and having a time constant. 14. The battery pack charging system of claim 13 , wherein the battery controller is further configured to: detect a connection to a charger; control the first switch to close; set a delay timer to the time constant of the timer circuit; and control the charging switch to close when the delay timer expires. 15. The battery pack charging system of claim 14 , wherein the battery controller is further configured to: detect a condition for disabling charging of the plurality of battery cells; control the charging switch to open; set a second delay timer to the time constant of the timer circuit; and control the first switch to open when the second delay timer expires. 16. The battery pack charging system of claim 11 , wherein the charging switch is a N-Channel power MOSFET. 17. A method for fast charging battery pack comprising: connecting a charging switch between a charging terminal of a battery pack and a plurality of battery cells of the battery pack, the battery pack having a nominal capacity of up to about 27 Amp-hours (Ah); measuring, via a battery controller of the battery pack, a voltage across the charging switch; calculating, via the battery controller, a current through the charging switch based on the voltage and a resistance of the charging switch; determining, via the battery controller, whether the current is greater than a current threshold; and transferring, in response to determining that the current is greater than the current threshold, a charging current above 12 Amperes to the plurality of battery cells during charging. 18. The method of claim 17 , further comprising: detecting, via a battery controller of the battery pack, a connection of the battery pack to a charger; controlling, via the battery controller, a first switch to close, wherein the first switch is coupled between the plurality of battery cells and a gate driver of the charging switch; setting, via the battery controller, a delay timer to a time constant of a timer circuit, wherein the timer circuit is coupled to the gate driver; and controlling, via the battery controller, the charging switc